Coordinated alternation of DNA methylation and alternative splicing of PBRM1 affect bovine sperm structure and motility

DNA methylation and gene alternative splicing drive spermatogenesis. In screening DNA methylation markers and transcripts related to sperm motility, semen from three pairs of full-sibling Holstein bulls with high and low motility was subjected to reduced representation bisulphite sequencing. A total...

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Autores principales: Yang, Chunhong, Xiao, Yao, Wang, Xiuge, Wei, Xiaochao, Wang, Jinpeng, Gao, Yaping, Jiang, Qiang, Ju, Zhihua, Zhang, Yaran, Liu, Wenhao, Huang, Ning, Li, Yanqin, Gao, Yundong, Wang, Lingling, Huang, Jinming
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Taylor & Francis 2023
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Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9988346/
https://www.ncbi.nlm.nih.gov/pubmed/36866611
http://dx.doi.org/10.1080/15592294.2023.2183339
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author Yang, Chunhong
Xiao, Yao
Wang, Xiuge
Wei, Xiaochao
Wang, Jinpeng
Gao, Yaping
Jiang, Qiang
Ju, Zhihua
Zhang, Yaran
Liu, Wenhao
Huang, Ning
Li, Yanqin
Gao, Yundong
Wang, Lingling
Huang, Jinming
author_facet Yang, Chunhong
Xiao, Yao
Wang, Xiuge
Wei, Xiaochao
Wang, Jinpeng
Gao, Yaping
Jiang, Qiang
Ju, Zhihua
Zhang, Yaran
Liu, Wenhao
Huang, Ning
Li, Yanqin
Gao, Yundong
Wang, Lingling
Huang, Jinming
author_sort Yang, Chunhong
collection PubMed
description DNA methylation and gene alternative splicing drive spermatogenesis. In screening DNA methylation markers and transcripts related to sperm motility, semen from three pairs of full-sibling Holstein bulls with high and low motility was subjected to reduced representation bisulphite sequencing. A total of 948 DMRs were found in 874 genes (gDMRs). Approximately 89% of gDMR-related genes harboured alternative splicing events, including SMAD2, KIF17, and PBRM1. One DMR in exon 29 of PBRM1 with the highest 5mC ratio was found, and hypermethylation in this region was related to bull sperm motility. Furthermore, alternative splicing events at exon 29 of PBRM1 were found in bull testis, including PBRM1-complete, PBRM1-SV1 (exon 28 deletion), and PBRM1-SV2 (exons 28–29 deletion). PBRM1-SV2 exhibited significantly higher expression in adult bull testes than in newborn bull testes. In addition, PBRM1 was localized to the redundant nuclear membrane of bull sperm, which might be related to sperm motility caused by sperm tail breakage. Therefore, the hypermethylation of exon 29 may be associated with the production of PBRM1-SV2 in spermatogenesis. These findings indicated that DNA methylation alteration at specific loci could regulate gene splicing and expression and synergistically alter sperm structure and motility.
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spelling pubmed-99883462023-03-07 Coordinated alternation of DNA methylation and alternative splicing of PBRM1 affect bovine sperm structure and motility Yang, Chunhong Xiao, Yao Wang, Xiuge Wei, Xiaochao Wang, Jinpeng Gao, Yaping Jiang, Qiang Ju, Zhihua Zhang, Yaran Liu, Wenhao Huang, Ning Li, Yanqin Gao, Yundong Wang, Lingling Huang, Jinming Epigenetics Research Paper DNA methylation and gene alternative splicing drive spermatogenesis. In screening DNA methylation markers and transcripts related to sperm motility, semen from three pairs of full-sibling Holstein bulls with high and low motility was subjected to reduced representation bisulphite sequencing. A total of 948 DMRs were found in 874 genes (gDMRs). Approximately 89% of gDMR-related genes harboured alternative splicing events, including SMAD2, KIF17, and PBRM1. One DMR in exon 29 of PBRM1 with the highest 5mC ratio was found, and hypermethylation in this region was related to bull sperm motility. Furthermore, alternative splicing events at exon 29 of PBRM1 were found in bull testis, including PBRM1-complete, PBRM1-SV1 (exon 28 deletion), and PBRM1-SV2 (exons 28–29 deletion). PBRM1-SV2 exhibited significantly higher expression in adult bull testes than in newborn bull testes. In addition, PBRM1 was localized to the redundant nuclear membrane of bull sperm, which might be related to sperm motility caused by sperm tail breakage. Therefore, the hypermethylation of exon 29 may be associated with the production of PBRM1-SV2 in spermatogenesis. These findings indicated that DNA methylation alteration at specific loci could regulate gene splicing and expression and synergistically alter sperm structure and motility. Taylor & Francis 2023-03-03 /pmc/articles/PMC9988346/ /pubmed/36866611 http://dx.doi.org/10.1080/15592294.2023.2183339 Text en © 2023 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group. https://creativecommons.org/licenses/by/4.0/This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) ), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Paper
Yang, Chunhong
Xiao, Yao
Wang, Xiuge
Wei, Xiaochao
Wang, Jinpeng
Gao, Yaping
Jiang, Qiang
Ju, Zhihua
Zhang, Yaran
Liu, Wenhao
Huang, Ning
Li, Yanqin
Gao, Yundong
Wang, Lingling
Huang, Jinming
Coordinated alternation of DNA methylation and alternative splicing of PBRM1 affect bovine sperm structure and motility
title Coordinated alternation of DNA methylation and alternative splicing of PBRM1 affect bovine sperm structure and motility
title_full Coordinated alternation of DNA methylation and alternative splicing of PBRM1 affect bovine sperm structure and motility
title_fullStr Coordinated alternation of DNA methylation and alternative splicing of PBRM1 affect bovine sperm structure and motility
title_full_unstemmed Coordinated alternation of DNA methylation and alternative splicing of PBRM1 affect bovine sperm structure and motility
title_short Coordinated alternation of DNA methylation and alternative splicing of PBRM1 affect bovine sperm structure and motility
title_sort coordinated alternation of dna methylation and alternative splicing of pbrm1 affect bovine sperm structure and motility
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9988346/
https://www.ncbi.nlm.nih.gov/pubmed/36866611
http://dx.doi.org/10.1080/15592294.2023.2183339
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